Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Basavaraj Natikar | 1634 | 100.00% | 1 | 100.00% |
Total | 1634 | 1 |
// SPDX-License-Identifier: GPL-2.0-or-later /* * AMD MP2 1.1 descriptor interfaces * * Copyright (c) 2022, Advanced Micro Devices, Inc. * All Rights Reserved. * * Author: Basavaraj Natikar <Basavaraj.Natikar@amd.com> */ #include <linux/hid-sensor-ids.h> #include "amd_sfh_interface.h" #include "../hid_descriptor/amd_sfh_hid_desc.h" #include "../hid_descriptor/amd_sfh_hid_report_desc.h" #define SENSOR_PROP_REPORTING_STATE_ALL_EVENTS_ENUM 0x41 #define SENSOR_PROP_POWER_STATE_D0_FULL_POWER_ENUM 0x51 #define HID_DEFAULT_REPORT_INTERVAL 0x50 #define HID_DEFAULT_MIN_VALUE 0X7F #define HID_DEFAULT_MAX_VALUE 0x80 #define HID_DEFAULT_SENSITIVITY 0x7F #define HID_USAGE_SENSOR_PROPERTY_CONNECTION_TYPE_PC_INTEGRATED_ENUM 0x01 /* state enums */ #define HID_USAGE_SENSOR_STATE_READY_ENUM 0x02 #define HID_USAGE_SENSOR_STATE_INITIALIZING_ENUM 0x05 #define HID_USAGE_SENSOR_EVENT_DATA_UPDATED_ENUM 0x04 static int get_report_desc(int sensor_idx, u8 *rep_desc) { switch (sensor_idx) { case ACCEL_IDX: /* accelerometer */ memset(rep_desc, 0, sizeof(accel3_report_descriptor)); memcpy(rep_desc, accel3_report_descriptor, sizeof(accel3_report_descriptor)); break; case GYRO_IDX: /* gyroscope */ memset(rep_desc, 0, sizeof(gyro3_report_descriptor)); memcpy(rep_desc, gyro3_report_descriptor, sizeof(gyro3_report_descriptor)); break; case MAG_IDX: /* magnetometer */ memset(rep_desc, 0, sizeof(comp3_report_descriptor)); memcpy(rep_desc, comp3_report_descriptor, sizeof(comp3_report_descriptor)); break; case ALS_IDX: /* ambient light sensor */ memset(rep_desc, 0, sizeof(als_report_descriptor)); memcpy(rep_desc, als_report_descriptor, sizeof(als_report_descriptor)); break; case HPD_IDX: /* HPD sensor */ memset(rep_desc, 0, sizeof(hpd_report_descriptor)); memcpy(rep_desc, hpd_report_descriptor, sizeof(hpd_report_descriptor)); break; } return 0; } static void get_common_features(struct common_feature_property *common, int report_id) { common->report_id = report_id; common->connection_type = HID_USAGE_SENSOR_PROPERTY_CONNECTION_TYPE_PC_INTEGRATED_ENUM; common->report_state = SENSOR_PROP_REPORTING_STATE_ALL_EVENTS_ENUM; common->power_state = SENSOR_PROP_POWER_STATE_D0_FULL_POWER_ENUM; common->sensor_state = HID_USAGE_SENSOR_STATE_INITIALIZING_ENUM; common->report_interval = HID_DEFAULT_REPORT_INTERVAL; } static u8 get_feature_rep(int sensor_idx, int report_id, u8 *feature_report) { struct magno_feature_report magno_feature; struct accel3_feature_report acc_feature; struct gyro_feature_report gyro_feature; struct hpd_feature_report hpd_feature; struct als_feature_report als_feature; u8 report_size = 0; if (!feature_report) return report_size; switch (sensor_idx) { case ACCEL_IDX: /* accelerometer */ get_common_features(&acc_feature.common_property, report_id); acc_feature.accel_change_sesnitivity = HID_DEFAULT_SENSITIVITY; acc_feature.accel_sensitivity_min = HID_DEFAULT_MIN_VALUE; acc_feature.accel_sensitivity_max = HID_DEFAULT_MAX_VALUE; memcpy(feature_report, &acc_feature, sizeof(acc_feature)); report_size = sizeof(acc_feature); break; case GYRO_IDX: /* gyroscope */ get_common_features(&gyro_feature.common_property, report_id); gyro_feature.gyro_change_sesnitivity = HID_DEFAULT_SENSITIVITY; gyro_feature.gyro_sensitivity_min = HID_DEFAULT_MIN_VALUE; gyro_feature.gyro_sensitivity_max = HID_DEFAULT_MAX_VALUE; memcpy(feature_report, &gyro_feature, sizeof(gyro_feature)); report_size = sizeof(gyro_feature); break; case MAG_IDX: /* magnetometer */ get_common_features(&magno_feature.common_property, report_id); magno_feature.magno_headingchange_sensitivity = HID_DEFAULT_SENSITIVITY; magno_feature.heading_min = HID_DEFAULT_MIN_VALUE; magno_feature.heading_max = HID_DEFAULT_MAX_VALUE; magno_feature.flux_change_sensitivity = HID_DEFAULT_MIN_VALUE; magno_feature.flux_min = HID_DEFAULT_MIN_VALUE; magno_feature.flux_max = HID_DEFAULT_MAX_VALUE; memcpy(feature_report, &magno_feature, sizeof(magno_feature)); report_size = sizeof(magno_feature); break; case ALS_IDX: /* ambient light sensor */ get_common_features(&als_feature.common_property, report_id); als_feature.als_change_sesnitivity = HID_DEFAULT_SENSITIVITY; als_feature.als_sensitivity_min = HID_DEFAULT_MIN_VALUE; als_feature.als_sensitivity_max = HID_DEFAULT_MAX_VALUE; memcpy(feature_report, &als_feature, sizeof(als_feature)); report_size = sizeof(als_feature); break; case HPD_IDX: /* human presence detection sensor */ get_common_features(&hpd_feature.common_property, report_id); memcpy(feature_report, &hpd_feature, sizeof(hpd_feature)); report_size = sizeof(hpd_feature); break; } return report_size; } static void get_common_inputs(struct common_input_property *common, int report_id) { common->report_id = report_id; common->sensor_state = HID_USAGE_SENSOR_STATE_READY_ENUM; common->event_type = HID_USAGE_SENSOR_EVENT_DATA_UPDATED_ENUM; } static int float_to_int(u32 float32) { int fraction, shift, mantissa, sign, exp, zeropre; mantissa = float32 & GENMASK(22, 0); sign = (float32 & BIT(31)) ? -1 : 1; exp = (float32 & ~BIT(31)) >> 23; if (!exp && !mantissa) return 0; exp -= 127; if (exp < 0) { exp = -exp; zeropre = (((BIT(23) + mantissa) * 100) >> 23) >> exp; return zeropre >= 50 ? sign : 0; } shift = 23 - exp; float32 = BIT(exp) + (mantissa >> shift); fraction = mantissa & GENMASK(shift - 1, 0); return (((fraction * 100) >> shift) >= 50) ? sign * (float32 + 1) : sign * float32; } static u8 get_input_rep(u8 current_index, int sensor_idx, int report_id, struct amd_input_data *in_data) { struct amd_mp2_dev *mp2 = container_of(in_data, struct amd_mp2_dev, in_data); u8 *input_report = in_data->input_report[current_index]; struct magno_input_report magno_input; struct accel3_input_report acc_input; struct gyro_input_report gyro_input; struct als_input_report als_input; struct hpd_input_report hpd_input; struct sfh_accel_data accel_data; struct sfh_gyro_data gyro_data; struct sfh_mag_data mag_data; struct sfh_als_data als_data; struct hpd_status hpdstatus; void __iomem *sensoraddr; u8 report_size = 0; if (!input_report) return report_size; switch (sensor_idx) { case ACCEL_IDX: /* accelerometer */ sensoraddr = mp2->vsbase + (ACCEL_IDX * SENSOR_DATA_MEM_SIZE_DEFAULT) + OFFSET_SENSOR_DATA_DEFAULT; memcpy_fromio(&accel_data, sensoraddr, sizeof(struct sfh_accel_data)); get_common_inputs(&acc_input.common_property, report_id); acc_input.in_accel_x_value = float_to_int(accel_data.acceldata.x) / 100; acc_input.in_accel_y_value = float_to_int(accel_data.acceldata.y) / 100; acc_input.in_accel_z_value = float_to_int(accel_data.acceldata.z) / 100; memcpy(input_report, &acc_input, sizeof(acc_input)); report_size = sizeof(acc_input); break; case GYRO_IDX: /* gyroscope */ sensoraddr = mp2->vsbase + (GYRO_IDX * SENSOR_DATA_MEM_SIZE_DEFAULT) + OFFSET_SENSOR_DATA_DEFAULT; memcpy_fromio(&gyro_data, sensoraddr, sizeof(struct sfh_gyro_data)); get_common_inputs(&gyro_input.common_property, report_id); gyro_input.in_angel_x_value = float_to_int(gyro_data.gyrodata.x) / 1000; gyro_input.in_angel_y_value = float_to_int(gyro_data.gyrodata.y) / 1000; gyro_input.in_angel_z_value = float_to_int(gyro_data.gyrodata.z) / 1000; memcpy(input_report, &gyro_input, sizeof(gyro_input)); report_size = sizeof(gyro_input); break; case MAG_IDX: /* magnetometer */ sensoraddr = mp2->vsbase + (MAG_IDX * SENSOR_DATA_MEM_SIZE_DEFAULT) + OFFSET_SENSOR_DATA_DEFAULT; memcpy_fromio(&mag_data, sensoraddr, sizeof(struct sfh_mag_data)); get_common_inputs(&magno_input.common_property, report_id); magno_input.in_magno_x = float_to_int(mag_data.magdata.x) / 100; magno_input.in_magno_y = float_to_int(mag_data.magdata.y) / 100; magno_input.in_magno_z = float_to_int(mag_data.magdata.z) / 100; magno_input.in_magno_accuracy = mag_data.accuracy / 100; memcpy(input_report, &magno_input, sizeof(magno_input)); report_size = sizeof(magno_input); break; case ALS_IDX: sensoraddr = mp2->vsbase + (ALS_IDX * SENSOR_DATA_MEM_SIZE_DEFAULT) + OFFSET_SENSOR_DATA_DEFAULT; memcpy_fromio(&als_data, sensoraddr, sizeof(struct sfh_als_data)); get_common_inputs(&als_input.common_property, report_id); als_input.illuminance_value = als_data.lux; report_size = sizeof(als_input); memcpy(input_report, &als_input, sizeof(als_input)); break; case HPD_IDX: get_common_inputs(&hpd_input.common_property, report_id); hpdstatus.val = readl(mp2->mmio + AMD_C2P_MSG(4)); hpd_input.human_presence = hpdstatus.shpd.presence; report_size = sizeof(hpd_input); memcpy(input_report, &hpd_input, sizeof(hpd_input)); break; } return report_size; } static u32 get_desc_size(int sensor_idx, int descriptor_name) { switch (sensor_idx) { case ACCEL_IDX: switch (descriptor_name) { case descr_size: return sizeof(accel3_report_descriptor); case input_size: return sizeof(struct accel3_input_report); case feature_size: return sizeof(struct accel3_feature_report); } break; case GYRO_IDX: switch (descriptor_name) { case descr_size: return sizeof(gyro3_report_descriptor); case input_size: return sizeof(struct gyro_input_report); case feature_size: return sizeof(struct gyro_feature_report); } break; case MAG_IDX: switch (descriptor_name) { case descr_size: return sizeof(comp3_report_descriptor); case input_size: return sizeof(struct magno_input_report); case feature_size: return sizeof(struct magno_feature_report); } break; case ALS_IDX: switch (descriptor_name) { case descr_size: return sizeof(als_report_descriptor); case input_size: return sizeof(struct als_input_report); case feature_size: return sizeof(struct als_feature_report); } break; case HPD_IDX: switch (descriptor_name) { case descr_size: return sizeof(hpd_report_descriptor); case input_size: return sizeof(struct hpd_input_report); case feature_size: return sizeof(struct hpd_feature_report); } break; } return 0; } void amd_sfh1_1_set_desc_ops(struct amd_mp2_ops *mp2_ops) { mp2_ops->get_rep_desc = get_report_desc; mp2_ops->get_feat_rep = get_feature_rep; mp2_ops->get_desc_sz = get_desc_size; mp2_ops->get_in_rep = get_input_rep; }
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